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author González, Angélica L
Merder, Julian
Andraczek, Karl
Brose, Ulrich
Filipiak, Michał
Harpole, W Stanley
Hillebrand, Helmut
Jackson, Michelle C
Jochum, Malte
Leroux, Shawn J
Nessel, Mark P
Onstein, Renske E
Paseka, Rachel
Perry, George L W
Peace, Angie
Rugenski, Amanda
Sitters, Judith
Sperfeld, Erik
Striebel, Maren
Zandona, Eugenia
Mozsár, Attila
Bluhm, Sarah
Doi, Hideyuki
Eisenhauer, Nico
Farjalla, Vinicius F
Hood, James
Kratina, Pavel
Lovelock, Catherine
Moody, Eric K
Pollierer, Melanie E
Potapov, Anton
Romero, Gustavo Q
Roussel, Jean-Marc
Scheu, Stefan
Scheunemann, Nicole
Seeber, Julia
Steinwandter, Michael
Susanti, Winda Ika
Tiunov, Alexei
Dézerald, Olivier
author_facet González, Angélica L
Merder, Julian
Andraczek, Karl
Brose, Ulrich
Filipiak, Michał
Harpole, W Stanley
Hillebrand, Helmut
Jackson, Michelle C
Jochum, Malte
Leroux, Shawn J
Nessel, Mark P
Onstein, Renske E
Paseka, Rachel
Perry, George L W
Peace, Angie
Rugenski, Amanda
Sitters, Judith
Sperfeld, Erik
Striebel, Maren
Zandona, Eugenia
Mozsár, Attila
Bluhm, Sarah
Doi, Hideyuki
Eisenhauer, Nico
Farjalla, Vinicius F
Hood, James
Kratina, Pavel
Lovelock, Catherine
Moody, Eric K
Pollierer, Melanie E
Potapov, Anton
Romero, Gustavo Q
Roussel, Jean-Marc
Scheu, Stefan
Scheunemann, Nicole
Seeber, Julia
Steinwandter, Michael
Susanti, Winda Ika
Tiunov, Alexei
Dézerald, Olivier
González, Angélica L
Merder, Julian
Andraczek, Karl
Brose, Ulrich
Filipiak, Michał
Harpole, W Stanley
Hillebrand, Helmut
Jackson, Michelle C
Jochum, Malte
Leroux, Shawn J
Nessel, Mark P
Onstein, Renske E
Paseka, Rachel
Perry, George L W
Peace, Angie
Rugenski, Amanda
Sitters, Judith
Sperfeld, Erik
Striebel, Maren
Zandona, Eugenia
Mozsár, Attila
Bluhm, Sarah
Doi, Hideyuki
Eisenhauer, Nico
Farjalla, Vinicius F
Hood, James
Kratina, Pavel
Lovelock, Catherine
Moody, Eric K
Pollierer, Melanie E
Potapov, Anton
Romero, Gustavo Q
Roussel, Jean-Marc
Scheu, Stefan
Scheunemann, Nicole
Seeber, Julia
Steinwandter, Michael
Susanti, Winda Ika
Tiunov, Alexei
Dézerald, Olivier
collection PubMed - marine biology
contents Nitrogen deposition reveals global patterns in plant and animal stoichiometry. González, Angélica L Merder, Julian Andraczek, Karl Brose, Ulrich Filipiak, Michał Harpole, W Stanley Hillebrand, Helmut Jackson, Michelle C Jochum, Malte Leroux, Shawn J Nessel, Mark P Onstein, Renske E Paseka, Rachel Perry, George L W Peace, Angie Rugenski, Amanda Sitters, Judith Sperfeld, Erik Striebel, Maren Zandona, Eugenia Mozsár, Attila Bluhm, Sarah Doi, Hideyuki Eisenhauer, Nico Farjalla, Vinicius F Hood, James Kratina, Pavel Lovelock, Catherine Moody, Eric K Pollierer, Melanie E Potapov, Anton Romero, Gustavo Q Roussel, Jean-Marc Scheu, Stefan Scheunemann, Nicole Seeber, Julia Steinwandter, Michael Susanti, Winda Ika Tiunov, Alexei Dézerald, Olivier Nitrogen Phosphorus Plants Ecosystem Animals Temperature The elemental content of organisms links cellular biochemistry to ecological processes, from physiology to nutrient dynamics. While plant stoichiometry is thought to vary with climate and nutrient availability across latitudes, the consistency of these patterns across trophic groups and realms remains unclear. Using the StoichLife database, which includes nitrogen and phosphorus content data for 5443 species across 1390 sites, we examine how solar energy (temperature, radiation) and nutrients (nitrogen and phosphorus) influence stoichiometric variation. We find that plant stoichiometry in terrestrial and freshwater ecosystems is more strongly associated with environmental gradients, particularly nitrogen deposition, than animal stoichiometry. Contrary to expectations, temperature, radiation, and labile P show limited global effects. Latitudinal patterns in stoichiometry are more closely associated with species turnover rather than intraspecific variation. Given the strong links between stoichiometry and organismal performance, these findings underscore the need to predict the ecological consequences of anthropogenic disruption to global biogeochemical cycles.
format Artículo científico
id pubmed_41365954
institution PubMed
language en
publishDate 2025
publisher Nature communications
record_format pubmed
spellingShingle Nitrogen deposition reveals global patterns in plant and animal stoichiometry.
González, Angélica L
Merder, Julian
Andraczek, Karl
Brose, Ulrich
Filipiak, Michał
Harpole, W Stanley
Hillebrand, Helmut
Jackson, Michelle C
Jochum, Malte
Leroux, Shawn J
Nessel, Mark P
Onstein, Renske E
Paseka, Rachel
Perry, George L W
Peace, Angie
Rugenski, Amanda
Sitters, Judith
Sperfeld, Erik
Striebel, Maren
Zandona, Eugenia
Mozsár, Attila
Bluhm, Sarah
Doi, Hideyuki
Eisenhauer, Nico
Farjalla, Vinicius F
Hood, James
Kratina, Pavel
Lovelock, Catherine
Moody, Eric K
Pollierer, Melanie E
Potapov, Anton
Romero, Gustavo Q
Roussel, Jean-Marc
Scheu, Stefan
Scheunemann, Nicole
Seeber, Julia
Steinwandter, Michael
Susanti, Winda Ika
Tiunov, Alexei
Dézerald, Olivier
Nitrogen
Phosphorus
Plants
Ecosystem
Animals
Temperature
Nitrogen deposition reveals global patterns in plant and animal stoichiometry. González, Angélica L Merder, Julian Andraczek, Karl Brose, Ulrich Filipiak, Michał Harpole, W Stanley Hillebrand, Helmut Jackson, Michelle C Jochum, Malte Leroux, Shawn J Nessel, Mark P Onstein, Renske E Paseka, Rachel Perry, George L W Peace, Angie Rugenski, Amanda Sitters, Judith Sperfeld, Erik Striebel, Maren Zandona, Eugenia Mozsár, Attila Bluhm, Sarah Doi, Hideyuki Eisenhauer, Nico Farjalla, Vinicius F Hood, James Kratina, Pavel Lovelock, Catherine Moody, Eric K Pollierer, Melanie E Potapov, Anton Romero, Gustavo Q Roussel, Jean-Marc Scheu, Stefan Scheunemann, Nicole Seeber, Julia Steinwandter, Michael Susanti, Winda Ika Tiunov, Alexei Dézerald, Olivier Nitrogen Phosphorus Plants Ecosystem Animals Temperature The elemental content of organisms links cellular biochemistry to ecological processes, from physiology to nutrient dynamics. While plant stoichiometry is thought to vary with climate and nutrient availability across latitudes, the consistency of these patterns across trophic groups and realms remains unclear. Using the StoichLife database, which includes nitrogen and phosphorus content data for 5443 species across 1390 sites, we examine how solar energy (temperature, radiation) and nutrients (nitrogen and phosphorus) influence stoichiometric variation. We find that plant stoichiometry in terrestrial and freshwater ecosystems is more strongly associated with environmental gradients, particularly nitrogen deposition, than animal stoichiometry. Contrary to expectations, temperature, radiation, and labile P show limited global effects. Latitudinal patterns in stoichiometry are more closely associated with species turnover rather than intraspecific variation. Given the strong links between stoichiometry and organismal performance, these findings underscore the need to predict the ecological consequences of anthropogenic disruption to global biogeochemical cycles.
title Nitrogen deposition reveals global patterns in plant and animal stoichiometry.
topic Nitrogen
Phosphorus
Plants
Ecosystem
Animals
Temperature
url https://pubmed.ncbi.nlm.nih.gov/41365954/